Force-free magnetic fields are important in many astrophysical settings. Determining the properties of such force-free fields—especially smoothness and stability properties—is crucial to understanding many key phenomena in astrophysical plasmas, for example, energy release processes that heat the plasma and lead to dynamic or explosive events. In the present work we discuss a serious limitation on the computation of force-free fields, within the context of a Lagrangian relaxation scheme that conserves magnetic flux and ∇ • B identically. This issue has the potential to invalidate the results produced by numerical force-free field solvers even for cases in which they appear to converge (at fixed grid resolution) to an equilibrium magnetic fi...
Predicting the final state of turbulent plasma relaxation is an important challenge, both in astro-p...
A fundamental problem in plasma theory is the question of the existence of MHD equilibria. The issue...
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Context. For the last thirty years, most of the studies on the relaxation of stressed magnetic field...
Ideal magnetohydrodynamics relaxation is the topology-conserving reconfiguration of a magnetic field...
International audienceKnowledge of the structure of the coronal magnetic field is important for our ...
Knowledge of the structure of the coronal magnetic field is important for our understanding of many ...
Context. The magnetic field in the solar corona can be reconstructed by extrapolating the data obtai...
Magnetic field in the solar corona is usually extrapolated from photospheric vector magnetogram usin...
It seems that the potential and linear force-free magnetic fields are inadequate to represent the ob...
We present a new code that performs a relaxation of a magnetic field toward a force-free state (Belt...
The magneto-frictional method is used in solar physics to compute both static and quasi-static model...
Predicting the final state of turbulent plasma relaxation is an important challenge, both in astro-p...
A fundamental problem in plasma theory is the question of the existence of MHD equilibria. The issue...
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Force-free magnetic fields are important in many astrophysical settings. Determining the properties ...
Context. For the last thirty years, most of the studies on the relaxation of stressed magnetic field...
Ideal magnetohydrodynamics relaxation is the topology-conserving reconfiguration of a magnetic field...
International audienceKnowledge of the structure of the coronal magnetic field is important for our ...
Knowledge of the structure of the coronal magnetic field is important for our understanding of many ...
Context. The magnetic field in the solar corona can be reconstructed by extrapolating the data obtai...
Magnetic field in the solar corona is usually extrapolated from photospheric vector magnetogram usin...
It seems that the potential and linear force-free magnetic fields are inadequate to represent the ob...
We present a new code that performs a relaxation of a magnetic field toward a force-free state (Belt...
The magneto-frictional method is used in solar physics to compute both static and quasi-static model...
Predicting the final state of turbulent plasma relaxation is an important challenge, both in astro-p...
A fundamental problem in plasma theory is the question of the existence of MHD equilibria. The issue...
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....